To measure the potential difference across a component, a voltmeter must be placed in parallel with that component in order to measure the difference in energy from one side of the component to the other. Potential difference is also known as voltage and is measured in volts (V).
When a charge moves through a potential difference, electrical work is done and energy transferred. The energy transferred can be calculated using the equation:
Energy transferred = charge moved × potential difference
This is when:
One volt is the potential difference when one coulomb of charge transfers one joule of energy.
What is the potential difference between two points if 2 C of charge shifts 4 J?
How much energy is transferred when 3 C of charge moves through a potential difference of 6 V?
When a charge moves through a potential difference, electrical work is done and energy transferred. The potential difference can be calculated using the equation:
potential difference = current × resistance
This is when:
From the equation, it can be seen that increasing the resistance for a certain potential difference will reduce the current passing through. For example, if a variable resistor is adjusted to double its initial resistance, the current passing will be halved.
What is the potential difference if a current of 2 A flows through a resistance of 40 Ω?
What is the resistance of a component if 12 V causes a current of 2 A through it?